Bottle with retcheting base and inner bladder

ABSTRACT

The purpose of the invention is to remove the excess air in an opened and, partially used bottle containing effervescent beverages. Further use of the invention can be employed when viscous substances are contained. This is achieved by rotating a base of a bottle that is connected to a tab at the bottom of an inner bladder liner that is contained inside a bottle. The invention shows a bottle system for dispensing and maintaining effervescent beverages fresher for a longer period of time after a bottle has been opened. The bottle also improves the dispensing of thick substances found in many products that have viscous properties. The system offers a more efficient, easy solution for the dispensing of such substances from their containers by employing a collapsible inner bladder liner contained inside a bottle.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a Continuation in Part of U.S. patent applicationSer. No. 13/199,840 filed on Sep. 12, 2011, now U.S. Pat. No. 8,453,860issued on Jun. 4, 2013 the entire content of which is incorporatedherein by reference. Primary Examiner: J. Gregory Pickett. AssistantExaminer: Ned A. Walker Art unit 3788

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not Applicable

REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTINGCOMPACT DISC APPENDIX

Not Applicable

BACKGROUND

Metal and plastic have been used to contain drinks that haveeffervescent properties that require pressure to preserve them for alonger shelf life. Sophisticated kegs, bottles, and cans are employedtoday which have additives like nitrogen, or carbon dioxide that requiretightly sealed containers that are kept under pressure. Attempts havebeen made to address the issue of storing these goods to retain somesemblance of the freshness that they had before they were opened andpartially consumed. Usually this requires a large container like a keg.

The design of the invention shows a more simple approach to the problemof dispensing and maintaining an effervescent beverage fresher for alonger period of time after it has been opened. However, the benefits ofthe bottle system don't end there. Another problem that the bottlesystem offers a solution for, is the dispensing of thick substances thathave viscous properties. Sometimes these substances can be difficult toremove from their containers. What the bottle system offers is asolution for the removal of such substances in a more efficient andeasier manner, by compressing them outward from within.

The bottle can be made of polyethylene terephthalate which is a commonstandard for soft drink bottles to date. Given the properties ofpolyethylene terephthalate the inner bladder liner can also be made ofpolyethylene terephthalate or a similar material, but with thinnerwalls. Experimentation will have to be conducted by the manufacturer.

SUMMARY

It is the objective of the invention to provide a vessel that willcontain consumable liquids that have effervescent properties, such ascarbonated soft drinks, effervescent wines, and beers. Further use ofthe invention can be employed when viscous substances will be the choicecontent of the invention. When effervescent drinks are the choicecontent used, the purpose of the invention is to remove the excess airthat has been left in a bottle after it has been opened and partiallyused. This is achieved by rotating the base of a bottle that isconnected to a tab at the bottom of an inner bladder liner that iscontained inside a bottle. By removing the excess air from a bottle thecontents are maintained fresher for a longer period of time, bypreventing the carbonation properties of the content from expanding intothe empty air space in the bottle.

When the contents of the bottle employs a viscous substance such astoothpaste, mayonnaise, ketchup, or caulking compounds, the bottle playsa different role. When the contents of the bottle have viscousproperties, the bottle is designed to rotate the base either to the leftor to the right. When the base is rotated, it actuates a tab at thebottom of the inner bladder liner inside the bottle. This rotation makesthe tab turn thereby twisting the inner bladder liner inside the bottle.Twisting the inner bladder liner begins from the bottom first, forcingthe contents in the bottle to move upward to the opening at the top ofthe bottle.

The ratchet and pawl effect created when the protrusions inside the baseinterface with the indents near the bottom of the bottle, this isdesigned in this manner to keep the base and the inner bladder linerwhere they are placed, and prevent them from moving on their own. Thisassures that the contents within the bottle will maintain a constantupward pressure from below the bottle, thereby facilitating the removalof the contents in a most efficient and easier manner.

When the contents of the bottle is something of the nature oftoothpaste, an opening near the top portion of the bottle's side wall isemployed, to further remove the contents in a more controlled and insmaller amounts, by pressing the exposed portion of the inner bladderliner with the fingers.

The bottle is further enhanced by creating a removable bottom thatscrews onto the bottom of the body of the bottle. This facilitates inthe removal and insertion of the inner bladder liner, and also makes thebottle more cost effective and eco-friendly. Rather that buying theentire bottle system every time the bottle needs replacing, instead, allthe consumer needs to purchase is the inner bladder liner. Added to thebottle is an additional removable bottle neck. A notch and a chip thatare similar in function to a ball and detent system, has also beenadded, and its intended purpose is to keep the inner bladder liner inplace at the top of the bottle and prevent it from turning when theinner bladder liner has been twisted from the bottom. The bottle hasalso been fitted with caps that are created in two parts. The first partof the caps screw onto the top of the removable bottle neck and by sodoing compresses the notch and chip together forcing them to lock withone another. The second cap is smaller in size and screws onto the endof the first cap. The purpose of the smaller cap is to seal the contentsin the bottle when it is not in use. This same result in capping thebottle system can be achieved by using the same flip-top caps found onmany toothpaste tubes. The bottle system has further been enhanced for aspecific purpose when a gun type action is required, for instance, whenthe contents within the bottle is caulking compound, a handle with atrigger action is employed to facilitate in the removal of the contentswithin. All of the combined features listed, create an entire bottlesystem.

DRAWING DESCRIPTION

FIG. 1, shows a composite view of most of the parts of a bottle, with acutaway view of the rotating base, and how they are interlocked with oneanother, and further illustrating with arrows how the rotating base isturned.

FIG. 2, shows a view of a bottle and a partial cutaway view of therotating base, to further illustrate how the parts of the bottleinterface with one another. It also gives an indication of how therotating base is turned, as well as showing a screw-on cap.

FIG. 3, is a view of a bottle with the bladder rim extruding from thetop of a bottle, and the tab and nodes extruding from the bottom of abottle.

FIG. 4, is a cutaway view of a rotating base of a bottle showing how theprotrusions of the base connect with said bottle.

FIG. 5, illustrates how an inner bladder liner is located inside abottle, and further indicating how it is twisted by revealing thebladder liner from a cutaway view of a bottle.

FIG. 6, is a view of an inner bladder liner partially twisted from thebottom.

FIG. 7, shows an inner bladder liner that is fully inflated. It has abladder rim at the top and below this rim it has the bladder neck. Fromthe bladder neck, the inner bladder liner extends outward to form thebladder shoulder. The rest of the inner bladder liner extends straightdownward, rounding off at the bottom and terminating into a tab with anode on both sides of the tab.

FIG. 7A, is a view of an inner bladder liner incorporating an addedbenefit of scoring the liner.

FIG. 8, is a view of an inner bladder liner, illustrating a separatecutaway view of a bottle, showing a different angle of the tab andnodes.

FIG. 9, is an exploded view of a bottle, a rotating base, and a twistoff cap.

FIG. 10, is a cutaway view of an inner bladder liner at the top, with acutaway view of a bottle at the center, and a cutaway view of a rotatingbase at the bottom of the page.

FIG. 11, is a view of a rotating base at the top of the page, with apartial cutaway view of a rotating base at the center, and a fullcutaway view of a rotating base at the bottom of the page.

FIG. 12, is an inside view of a rotating base.

FIG. 13, is a view of a bottle with the rotating base and the capremoved and set aside, and further illustrates where the bladder squeezeopening is located on the side wall of a bottle.

FIG. 13A, is a cut away view of a bottle 14, and a rotating base 16, andfurther the bottle shows serration at the bottom portion. The base showsa partial cutaway view revealing serration on the inner wall. Amagnified view of the serration is shown separately to furtherillustrate more clearly how the serration is fitted inside the rotatingbase.

FIG. 14, Shows a view of a bottle upper half. The bottle upper half hasan open bottom, and just above the open bottom, the bottle upper halfhas threading that circumvents the entire girth of the bottle. At thetop of the bottle upper half there is a threaded neck. Furtherillustrated, is an inner bladder liner partially inserted through theopen bottom of the bottle upper half.

FIG. 15, Shows a bottle upper half, shown with the inner bladder linerfully inserted inside the bottle. Protruding from the top of the bottleis the bladder neck and bladder rim and below the bladder rim is shown achip. Further, illustrated is displayed scoring on the surface of theinner bladder liner, with the tab and nodes on the bottom of the innerbladder liner.

FIG. 16, is a view of a bottle with an inner bladder liner fullyinserted inside the bottle upper half. Below the inner bladder liner isa removable lower bottle half, showing how the removable lower bottlehalf will screw into the bottom of the bottle upper half.

FIG. 17, is a view of a bottle showing the removable lower bottle halfattached onto the bottom of the bottle upper half.

FIG. 18, is illustrating a view of a bottle, the bottle is partiallyassembled with a partial cutaway view of the base detached from thebottle.

FIG. 19, shows a view of a bottle with a partial cutaway view of thebase attached to the bottle.

FIG. 20, is view of a bottle, showing the bottle partially assembledwith a view of the base detached from the bottle.

FIG. 21, shows a view of a bottle with the base attached to the bottomof the bottle.

FIG. 22, is illustrated with a view of a bottle, showing the bottlepartially assembled with a cutaway view of the base detached from thebottle, and indicated with arrows to show how it will be raised andattached to the removable lower bottle half.

FIG. 23, shows a view of a bottle with a cutaway view of the baseattached to the removable lower bottle half.

FIG. 24, is a view of an inner bladder liner.

FIG. 25, is illustrated with a view of a bottle upper half, with anexploded view of the removable bottle neck and caps. Both the caps andthe removable bottle neck are indicated with arrows to show how theywill be screwed onto the upper bottle half and the removable bottleneck.

FIG. 26, is a view of a bottle fully assembled, further it is showing acutaway view of the removable bottle neck to display the bottle's topthreading, and the bottle neck inner threading.

FIG. 27, is an exploded view of all the components of the entire bottlesystem, with a partial cutaway view of the base.

FIG. 28, is an exploded view of a bottle shown in perspective, with theinner bladder liner detached, and the removable bottle neck alsodetached from the bottle upper half.

FIG. 29, is an exploded view of a bottle shown in perspective, with theinner bladder liner fully inserted and partially twisted inside thebottle upper half. Further, is illustrated the removable lower bottlehalf detached from the bottle upper half. The removable lower bottlehalf is indicated with arrows to show how it will be raised and screwedonto the bottle upper half.

FIG. 30, is an exploded view of a bottle shown in perspective, with theremovable lower bottle half attached to the bottom of the bottle upperhalf, the removable bottle neck is attached in its place and the bladderrim and chip protrude from the top of the removable bottle neck.Further, it is illustrated with the caps detached, and the tab and anode protruding from below the removable lower bottle half.

FIG. 31, is an exploded view of a bottle shown in perspective, with theremovable lower bottle half attached to the bottom of the bottle upperhalf. At the top of the bottle upper half is shown the removable bottleneck attached to the bottle upper half. Also shown below the lowerbottle half is the base detached from the rest of the bottle assembly.

FIG. 32, is an exploded view of a bottle shown in perspective, with thecaps detached from the top of the removable bottle neck. Further isillustrated with the base attached to the bottom of the bottle indicatedwith arrows to show how it will turn.

FIG. 33, is an exploded view of a bottle shown in perspective, with theinner bladder liner inserted inside the bottle upper half, and partiallytwisted. Further is shown the removable lower bottle half detached fromthe bottle and indicated with arrows showing how the removable lowerbottle half will be raised up to the bottle and screwed into place.Below the bottle lower half the base is detached from the rest of thebottle assembly, and indicated with arrows to illustrate that it will beraised and attached to the removable lower bottle half where it snapsinto place.

FIG. 34, is a view of a bottle with the removable lower bottle halfattached to the bottom of the bottle upper half. Further it isillustrating the removable bottle neck detached from the bottle upperhalf and indicated with arrows to show how it will be lowered onto thebottle upper half and screwed into place.

FIG. 35, is a view of a bottle with the removable lower bottle halfattached to the bottom of the bottle upper half. Below the removablelower bottle half can be seen the tab and nodes. Further, at the top ofthe bottle upper half is a cutaway view of the removable bottle neckmounted onto the bottle upper half, indicting how it is attached to thebottle upper half in conjunction with the bladder neck and bladder rimand chip.

FIG. 36, is a cutaway view of a bottle upper half, with a detachedpartial cutaway view of a removable bottle neck, indicated with arrowsto show how it will be lowered and threaded onto the bottle upper half.

FIG. 37, is a view of an inner bladder liner fully inflated and settledinside a cutaway view of a bottle upper half. Further, illustrated is apartial cutaway view of a removable bottle neck indicated with arrows toshow how it will be lowered and screwed onto the bottle upper half.

FIG. 38, is a view of an inner bladder liner partially twisted at thebottom, and encased within a cutaway view of a bottle upper half. Theinner bladder liner is indicated with an arrow to show how it is twistedand collapsed inside the bottle upper half. Further, is a partialcutaway view of a removable bottle neck that is indicated with arrows toshow how it will be lowered and screwed onto the bottle upper half.

FIG. 39, shows an exploded view in perspective form of a removablebottle neck, upper cap, lower cap, a partial view of a bladder neck, anda bladder rim, and chip.

FIG. 40, shows a close up view of the removable bottle neck. This viewclearly illustrates how the chip, is settled onto the notch.

FIG. 41, shows a cutaway view of the bottle upper half to display theinner workings of the lever, And respective assembly.

FIG. 42, shows an inner bladder liner in dotted outline form that issuperimposed onto the bottle system, with the trigger and levercomponents assembled into their respective places.

DETAILED DESCRIPTION

FIGS. 1, 2, 3, 4, 5, 9, 13, show a bottle 14, made of polyethyleneterephthalate, that can also be made of polypropylene or various otherplastics depending on its intended contents. The bottle is intended forthe storing and dispensing of effervescent drinks, but can also be usedeffectively for the storing and dispensing of viscous substances. Thebottle is cylindrical in shape, tapering off into a rounded form at thebottom. The bottle has a shoulder 35, tapering into an elongated neck27, at the top with the neck finally terminating into an opening. Theneck of the bottle has threading 28, for the purpose of applying ascrew-on cap 17. The bottle employs a system of indents 22. The indentswork to restrict the movement of the rotating base 16, when theyinterface with the protrusions 24, located along the inside wall of therotating base. The side of the rotating base is crimped, creating a baseindentation 31. This is done to contour the rotating base inwardbringing the protrusions in close proximity to the indents on thebottle. The purpose of the indents and the protrusions is to create aratchet and pawl effect so that when the rotating base is moved it turnsa tab 18, that is attached to the bottom of an inner bladder liner 15.When the tab is turned, the inner bladder liner is twisted beginning atthe bottom first, thereby compressing the inner bladder liner andforcing the contents of the bottle to move upwards towards the threadedopening located at the top of the bottle. Once the said base is turnedto a new position, it will be held there in this new position by thesaid indents and protrusions thereby keeping the said inner bladderliner from turning backwards on its own, and by so doing maintain aconstant upward pressure of the contents. This system is advantageous inthe soft drink industry, because by removing the excess air in thebottle, it keeps the contents in the bottle fresher for a longer periodof time.

The bottle system also works well when it is used with thick or viscoussubstances. When the rotating base 16, is turned it forces these thicksubstances up towards the opening at the top of a bottle. Bypre-squeezing the contents in a bottle and not allowing the contents toflow back into the empty air space that remains in a container, (whensome of the initial contents have been expended), it allows for theremoval of the contents in a more efficient manner. A good example ofthese contents is toothpaste, that is by nature more difficult to removefrom a container.

FIGS. 1, 2, 4, show how the protrusions 24, on the rotating base 16,interface with the indents 22, on the bottle 14, to lock the base ontothe bottle and keep it from turning on it own.

FIGS. 1, 2 show how the retaining ring 26, is cradled in the holding cup20, with the tab 18, protruding through both the retaining ring and theholding cup.

FIG. 4, illustrate a view of a bottle 14, in dotted outline form. Alsoshown is a cutaway view of the rotating base 16, and a screw on cap 17.The purpose of this illustration is to show how the bottle 14, isengaged by the protrusions 24, on the base. Note how the protrusions 24,on the left and right of the bottle partially extend into the bottle.The said retaining ring at the bottom of the bottle has purposely beenomitted from this view so as not to confuse it with the holding cuplocated on the bottom, inside, and center surface of the rotating base.

FIGS. 1, 5, 6, 7, 7 a, 8, 10, 13, show an inner bladder liner 15. Theinner bladder liner is a collapsible plastic bag that is inserted into abottle, via the bottle neck 27, that is open at the top of the bottle.The inner bladder liner has a thin flat bladder rim 29, at the topopening of the inner bladder liner. The bladder rim supersedes in sizethe opening at the top of the said bottle where it can be heat onto thebottle. The bladder rim is designed so that it can rest on top of thebottle neck 27, therefore preventing the inner bladder liner from beingpulled into the bottle. The inner bladder liner has a size and shapethat is contoured to the inside surface of the bottle. The inner bladderliner consists of a bladder rim 29, a bladder neck 33, and bladdershoulder 36. The inner bladder liner has straight walls that taper intoa rounded form at the bottom, and

finally ending at the bottom of the inner bladder liner with a tab 18,that has a node 25, on both sides. The inner bladder liner can befurther enhanced by scoring 39, it in such a way that the inner bladderliner will collapse like a billows when it is rotated, very much thesame way an accordion is collapsed. The wall of the inner bladder linercan be scored more than half of its length, to facilitate in thetwisting and collapsing of the inner bladder liner. It may also bepreferable that the inner bladder liner be made of the same materialpolyethylene terephthalate as the bottle itself, but in a thinner gauge.Given the properties of polyethylene terephthalate of tinsel strengthand its ability to maintain its shape with a minimal of stretching, itwould keep the expansion of the inner bladder liner to a minimum.

FIGS. 1, 2, 3, 4, 5, 9, 10, 11, 12, 13, illustrate how the bottle 14,employs a flange groove 23, and flange 21, creating a system to guideand maintain the rotating base 16, of the bottle in its place. Therotating base is circumvented by a flange along the top rim. The flangeis a tight fit that snaps onto a flange groove that encircles the lowerportion of the bottle. The flange and flange groove assures that thebottle and rotating base maintain constant contact with one anotherwithout separating from

each other. The flange and flange groove also serve as a guide for therotating base when it is rotated around the bottle.

FIGS. 1, 2, 3, 5, 9, 10, 13, To further assure that the rotating baseremains securely attached to the bottle, a retaining ring 26, is formedat the very bottom of the bottle.

FIGS. 1, 2, 4, 9, 10, 11, 12, 13, show how the retaining ring 26, isengaged by a holding cup 20, that is located on the inside and bottomcenter of the rotating base at the crest of the base depression 30. Theretaining ring is snap-fitted onto the holding cup where it is firmlyheld in place. The holding cup and retaining ring further aid in guidingthe rotating base when it is actuated.

FIG. 9, shows a retaining ring hole 34. The purpose of this hole is toallow the tab 18, to pass through it. The retaining ring hole is roundin shape so that the tab may be turned freely without hindrance when itis inserted through the retaining ring hole.

FIGS. 9, 12, illustrate a tab hole 19, located at the center of theholding cup 20. This hole is rectangular in shape, elongated, and narrowto fit the shape and dimensions of the tab body. The tab is press fittedthrough the tab hole where it is engaged by the rotating base.

FIGS. 4, 10, 11, 13, further illustrate a cutaway view of a tab hole 19,situated at the center of the holding cup 20.

FIGS. 1, 2, 4, 9, 10, 11, 12, 13, show the base depression 30. The basedepression is a portion of the base that is raised into the inside partof the base located at the bottom of the base. Its purpose is to raisethe holding cup up to the bottle so that it can engage with the tab 18,that extends downward from the bottom of the bottle.

FIG. 1, 2, 3, 5, 6, 7, 8, 10, 13, illustrate the nodes 25, on the tab18. The nodes sole purpose is to assure that the tab 18, is not drawn upinto the bottle 14, after the inner bladder liner 15, is twisted insidethe bottle. This is achieved by forcing the tab and nodes through thetab hole located on the top of the base depression 30 of the rotatingbase 16. Once the tab and nodes are pressed through the tab hole, thetab hole 19, restricts the tab from sliding back up into the bottle, bycatching the nodes on the outside and bottom surface of the tab hole.

FIG. 10, shows a cutaway view of an inner bladder liner 15, at the topof the page. This is indicated with arrows to show how the inner bladderliner will be joined with the bottle 14, illustrated as a cutaway viewat the center of the page. At the bottom of the page is a cutaway viewof the rotating base also indicating with arrows to show how the bottlewill fit into the base. Once the inner bladder liner is inserted intothe

bottle, said tab 18, and nodes 25, will protrude from the bottom centerof the bottle through the retaining ring hole 34. When the inner bladderliner is in place, the bottle is lowered and press fitted onto therotating base where the flange 21, and flange groove 23, lock the bottleonto the rotating base. At this stage the bottle is also locked intoplace by the retaining ring 26, and holding cup 20. Once this isachieved the tab 18, is locked into place in the tab hole 19.

FIG. 13, shows a view of a bottle 14, with the rotating base 16, and cap17, set aside. Further illustrating a bladder squeeze opening 32,located on the side wall of a bottle. The purpose of the bladder squeezeopening is to facilitate in the removal of the contents in the bottle,when the contents are of a viscous substance. This is very useful for amore controlled removal of products like toothpaste. When the contentsin the bottle are depleted, the rotating base is turned to push thecontents in the bottle upward. Once the contents are compressed to adesired level by the user, the inner bladder liner 15, can be pressedwith the fingers through the bladder squeeze opening 32, to facilitatein the removal of the contents in the bottle in smaller and morecontrolled amounts.

FIG. 13A, shows a cutaway view of a bottle 14, indicated by threevertical arrows pointing downward to illustrate how the bottle will belowered into the base 16. It also shows a variation of the ratchet andpawl effect of the bottle by producing base serration 38, on the insidewall of the base 16, as well as bottle serration 37, near the bottom ofthe bottle that match and complement the serration on the base. Thisprovides greater control of how far the base can be turned in smallerincrements. The illustration also shows a magnified view of the baseserration to indicate where and how the base serration is located in thebase.

FIG. 14 through 42 shows a modified version of a bottle as illustratedin FIG. 1 through 13A.

FIG. 14, is a view of a bottle upper half 14 a. At the top of the bottleupper half is the top threading 45, that is designed to engage andthread into the removable bottle neck 27 a. The removable bottle neck isdesigned to screw onto the bottle upper half 14 a, and by so doingfacilitates in locking the inner bladder liner onto the bottle system atthe top of the bottle upper half. This is achieved when the bladder neck33, is passed through the removable bottle neck and the bladder rim 29,is seated on top of the removable bottle neck. After the bladder rim isseated into place the lower cap 17 a, is threaded onto the removablebottle neck thereby compressing the bladder rim down onto the removablebottle neck where the chip 43, and notch 44, engage and lock the top ofthe inner bladder liner thereby keeping it from turning when the innerbladder liner is twisted from below. Below the top threading, the bottleexpands out to form the bottle shoulder 35. The bottle upper halfextends straight downward from the bottle shoulder to form the walls ofthe bottle. Just before the open bottom 42, there is the bottomthreading 14 b, that circumvents the bottle upper half. The purpose ofthe bottom threading is to engage and thread onto the lower bottle half40. Further, is a fully inflated inner bladder liner 15, partiallyinserted through the bottom of the bottle upper half 14 a.

FIG. 15, the inner bladder liner is shown completely inserted into thebottle upper half.

FIG. 16, is a view of a bottle upper half 14 a, showing a fully inflatedinner bladder liner 15, completely inserted into the bottle upper half.Below the inner bladder liner is the lower bottle half 40. The purposeof the said, lower bottle half is to allow access into the said bottleupper half so that the inner bladder liner 15, can be inserted into thebottle. The lower bottle half is open at the top with the lower bottlehalf threading 41, that circumvents the lower bottle half just below theopen top 46. A flange groove 23, has been added to the lower bottle halfto engage the rotating base 16. Below the flange groove are indents 22,and below the indents there is a retaining ring 26. Also thisIllustration is shown with arrows to indicate how the lower bottle halfwill be raised up and thread into the bottle upper half, and by so doingencloses the inner bladder liner.

FIG. 17, is shown with the lower bottle half fully threaded into placewith the upper bottle half. Further can be seen the bladder neck 33,protruding from and above the top threading 45, and above the bladderneck is the bladder rim 29, and chip 43. The chip is situatedstrategically so that it will engage with a notch 44, that is located atthe top of the removable bottle neck 27 a. When the chip 43, is seatedin the notch 44, the lower cap is screwed into place thereby pressingthe chip into the notch and by so doing locks and keeps the top of theinner bladder liner from twisting at the top when the inner bladderliner is twisted from the bottom. At the bottom of the illustration thetab 18, and nodes 25, can be seen protruding from below the retainingring 26.

FIG. 18, is a view of a bottle upper half 14 a, shown with the bladderneck protruding from the top, with the bladder rim 29, and chip 43,above it. Below the bottle upper half can be seen the lower bottle halfsecurely threaded into place. This illustration shows a cutaway view ofthe base and it is indicated with arrows to show how it will be raisedonto the lower bottle half

FIG. 19, is a view of a bottle showing a cutaway view of the base thathas been attached and snapped onto the lower bottle half.

FIG. 20, is a view of a bottle upper half 14 a. This illustration showsthe base 16, detached from the lower bottle half 40, and is indicatedwith arrows to show that it will be raised and snapped onto the lowerbottle half

FIG. 21, shows the base 16, snapped into place.

FIG. 22, is a view of a bottle upper half 14 a, showing a cutaway viewof the base 16, and it is indicated with arrows to show that it will beraised and snapped onto the lower bottle half

FIG. 23, shows a view of a bottle with a cutaway view of the basesnapped onto the lower bottle half.

FIG. 24, is a view of an inner bladder liner 15.

FIG. 25, shows a view of an upper bottle half 14 a, and at the bottom ofthe upper bottle half can be seen the open bottom 42, just below thebottom threading 14 b. The inner bladder liner 15, is inserted throughthe open bottom of the upper bottle half. Once the inner bladder lineris fully settle into place inside the upper bottle half the removablebottle neck 27 a, is threaded onto the upper bottle half, this forcesthe bladder rim 29, to snap out above the removable bottle neck 27 a,and seating it into place at the top of the removable bottle neck, wherethe chip 43, and notch 44, will be locked together when the

lower cap 17 a, is threaded onto the removable bottle neck. By lockingthe inner bladder liner at the top end it secures the inner bladderliner from twisting at the top when the inner bladder liner is twistedfrom below by the base.

FIG. 26, shows the bottle system fully assembled. Further, is shown acutaway view of the removable bottle neck 27 a. Revealing the bottleneck inner threading 27 c. And the top threading 45. Located at the topof bottle upper half 14 a, above the removable bottle neck 27 a, is thelower cap 17 a, and the upper cap 17 b. Below the bottle upper half 14a, the base 16, is seated and snapped into place.

FIG. 27, is an exploded view of all the components of the entire bottlesystem. Once the components of the bottle system are assembled togetherthe bottle system works the same way as it is intended to function asstated from FIG. 1 through 13 a, which is to squeeze the air and emptyspace out of the bottle. In the case of viscous substance, it willfacilitate in the removal of such substances.

FIG. 28, shows an exploded view of a bottle in perspective. The innerbladder liner is shown below the open bottom of the bottle and indicatedwith arrows to illustrate that it will be inserted in through the bottomof the bottle upper half. Above the bottle upper half is shown theremovable bottle neck. The upper bottle half 14 a, has been fitted witha bladder squeeze opening 32, that is utilized to allow access to theinner bladder liner 15, after it has been inserted inside the upperbottle half. Once the inner bladder liner is encased inside the bottlesystem the inner bladder liner can be pressed with the fingers of thehand through the bladder squeeze opening 32, to facilitate in squeezingout a controlled and small amounts of viscous substances that arecontained inside the inner bladder liner. The base 16, of the bottlesystem is still utilized to squeeze out the air and empty space, andtake up the slack that can remain in the inner bladder liner.

FIG. 29, shows an exploded view of a bottle in perspective. The innerbladder liner 15, is shown protruding below the open bottom of thebottle. Below, the inner bladder liner is the lower bottle half 40, andindicated with arrows to illustrate that it will be inserted in throughthe bottom of the bottle upper half 14 a. Once the lower bottle half isput into the bottle upper half it is screw into place and it's ready toreceive the base. When the base is in place the bottle is ready for use.Above the bottle upper half is shown, the removable bottle neck 27 a.

FIG. 30, Shows an exploded view of a bottle in perspective, with theremovable lower bottle half 40, attached to the bottom of the bottleupper half 14 a. Below the removable lower bottle half 40, the rotatingbase 16, is set to be snapped in place. Above the upper bottle half theremovable bottle neck 27 a, is secured onto the bottle half 14 a, andit's ready to receive the caps that will compress the chip 43, and notch44, together, while the second caps seals the contents within.

FIG. 31, Shows an exploded view of a bottle in perspective, with theremovable lower bottle half 40, attached to the bottom of the bottleupper half 14 a. Below the lower bottle half the base 16, set to besnapped into place.

FIG. 32, Shows an exploded view of a bottle in perspective, with therotating base 16, attached to the bottom of the bottle upper half 14 a.Once all the components are assembled the bottle system is ready foruse.

FIG. 33, Shows an exploded view of a bottle in perspective, with theremovable lower bottle half 40, detached from the bottom of the bottleupper half 14 a, and is indicated with arrow to show how it will beraised up to and screwed onto the bottle upper half. Below the lowerbottle half the rotating base 16, is indicated with arrows to show howit will be snapped into place. Once the base is snapped into place itwill be held securely by the retaining ring 26, and the flange groove23.

FIG. 34, Shows a view of a bottle upper half 14 a, with the removablelower bottle half 40, attached to the bottom of the bottle upper half.Below the open bottom 42, can be seen the flange groove 23, that is usedto attach the rotating base 16, with a snap fit. The removable lowerbottle 40, half is screwed into place with the bottle upper half 14 a,which utilized the bottom threading 14 b, of the bottle upper half.Further, illustrated in this drawing is the top threading 45, that isfound at the open top 46, of the bottle upper half. This threading isused to attach the removable bottle neck 27 a, onto the bottle upperhalf, as indicated with arrows. Once the removable bottle neck issecured into place the inner bladder liner will be held in check whenthe notch and chip are engaged. The removable bottle neck is fitted withbottle neck outer threading 27 b, for the purpose of securing the lowercap 17 a, onto the bottle upper half 14 a. When the lower cap is securedtightly into place it compresses the chip into the notch on theremovable bottle neck. The interlocking of these two components keepsthe inner bladder liner from turning at the top when the inner bladderliner is twisted and compressed from below.

FIG. 35, Shows a view of a bottle upper half 14 a, with the removablelower bottle half 40, attached to the bottom of the bottle upper half.At the top of the bottle upper half is a cutaway view of the removablebottle neck 27 a, to show how it is attached to the top threading 45.Further can be seen the bladder neck 33, encased within the removablebottle neck 27 a, as it protrudes from the open top 46, of the bottleupper half 14 a, with the chip 43, and bladder rim 29, exposed above theremovable bottle neck.

FIG. 30, 31, 32, show a cutaway view of a bottle upper half 14 a, and apartial cutaway view of the removable bottle neck 27 a, indicated witharrows to show how it will be lowered and twisted onto the bottle upperhalf.

FIG. 36, shows a cutaway view of a bottle upper half 14 a, to show itfrom the inside, therefore exposing the bottom threading 14 b, that isextruded from within the bottle upper half 14 a. Further, illustrated isa partial cutaway view of the removable bottle neck, exposing the bottleneck inner threading 27 c, the bottle outer threading 27 b, and thenotch 44, and is indicated with arrows to show how it will be loweredand twisted onto the bottle upper half. In this illustration can be seenhow the bottom of the bottle upper half is completely open exposing theopen bottom 42.

FIG. 37, shows a cutaway view of a bottle upper half 14 a, exposing afully inflated inner bladder liner 15, cradled within the bottle upperhalf. In this illustration is shown how the inner bladder liner extendsbelow the bottle upper half from the open bottom 42. Further isillustrated how the bladder neck 33, extends beyond the top threading45, to show how there is enough clearance so that when the removablebottle neck is twisted onto the bottle upper half. The notch 43, andbladder rim 29, will extend beyond the top opening of the removablebottle neck, and come to rest above the removable bottle neck to locksthe chip 43, with the notch 44 together when the lower cap 17 a, isthreaded into place.

FIG. 38, shows a cutaway view of a bottle upper half 14 a, with apartially twisted inner bladder liner cradled inside the upper bottlehalf, and indicated with an arrow to show that it is twisted from below.Further, is illustrated a partial cutaway view of a removable bottleneck 27 a.

FIG. 39, shows an exploded view of a removable bottle neck 27 a, withthe bottle neck outer threading 27 b, set on the outside, near the topof the removable bottle neck, that is located just below the notch 44,that is at the top of the removable bottle neck. The removable bottleneck is hollow and open at both ends so that liquid can pass through it.The said notch is cut into a V-shape so that it can accommodate thefitting of the chip 43, (that is also V-shape in form) into its space.When the chip is set into the notch the lower cap 17 a, is threaded ontothe removable bottle neck and by so doing presses the chip into thenotch thereby securing the inner bladder liner with the rest of thebottle system, and by so doing the inner bladder liner cannot turn atthe top end when the inner bladder liner is twisted from below. Thelower cap 17 a, is fitted with lower cap threading 17 d, that matchesthe bottle neck outer threading 27 b, so that the lower cap can besecured onto the removable bottle neck 27 a, and press the notch andchip into each other. The upper cap is also threaded internally, calledupper cap threading 17 e, so that it can thread onto the lower cap outerthreading 17 c. The purpose of the upper cap is to seal in the contentswithin the bottle system.

FIG. 40, shows a close-up view of the removable bottle neck 27 a, forthe purpose of illustrating how the chip 43, is fitted into the notch44. After the chip is nestled into place in the notch, the lower cap 17a, is screwed onto the removable bottle neck 27 b, and by so doingpresses the chips into the notch and prevents the inner bladder linerfrom twisting around at the top when the inner bladder liner is twistedfrom below, when the rotating base 16, is turned. As the inner bladderliner is compressed tighter and tighter the twisting action applied tothe inner bladder liner from below is transferred further upwards makingit necessary for a stop action to be set into place by the chip andnotch, to prevent the inner bladder liner from moving at the top end.This action can be compared to a wringer, but in the case of the bottlesystem the action is directed upwards to the opening at the top of theinner bladder liner where the content stored inside the inner bladderliner is released in a controlled manner, or in the case of storedeffervescent drinks the empty air space is removed.

FIG. 41, shows a cutaway view of the bottle upper half to display theinner workings of the lever 51. The bottle has been fitted with a griphandle 48, and a trigger 49. The trigger is sandwiched internally in thegrip handle, and held in place by a trigger pin 50. A fulcrum opening55, is set into the bottle upper half to allow the lever and pad toenter into the bottle so that pressure can be applied to the innerbladder liner. A fulcrum 52, is set, one on each side of the fulcrumopening. The lever 51, is held in place between the two fulcrums by apivot pin 53. At one end of the lever that is set internally into thebottle upper half there is a round pad 54. The handle and lever systemhas been added to a bottle for the purpose of squeezing out viscoussubstances from a bottle when a gun action is required such as in theuse of caulking compound, or axle grease. When the trigger is squeezedinto the grip handle 48, the top of the trigger moves forward and by sodoing depresses a lever 51, that pushes a pad 54, that is at the otherend of the lever 51, this in turn depresses the inner bladder liner 15,and forces the viscous substance within the inner bladder liner to besqueezed out under pressure at the top opening.

FIG. 42, shows a dotted outline view of an inner bladder liner 15,superimposed, onto the bottle system to further illustrate how the leveris actuated within the bottle. Also seen in dotted outline form is partof the lever and the pad to illustrate how it rest internally inside thebottle upper half and pressing into the inner bladder liner.

LIST OF ITEMS

-   14. Bottle-   14 a bottle upper half-   14 b bottle upper half bottom threading-   15. Inner bladder liner-   16. Rotating base-   17. Cap-   17 a lower Cap-   17 b upper Cap-   18. Tab-   19. Tab hole-   20. Holding cup-   21. Flange-   22. Indents-   23. Flange groove-   24. Protrusions-   25. Nodes-   26. Retaining ring-   27. Bottle neck-   27 a Removable bottle neck-   27 b Removable bottle neck outer threading-   27 c Removable bottle neck inner threading-   28. Bottle neck threading-   29. Bladder rim-   30. Base depression-   31. Base indentation-   32. Bladder squeeze opening-   33. Bladder neck-   34. Retaining ring hole-   35. Bottle shoulder-   36. Bladder shoulder-   37. Bottle serration-   38. Base serration-   39. Scoring-   40 Removable lower bottle half-   41 Removable lower bottle half threading-   42 bottle upper half open bottom-   43 chip-   44 notch-   45 bottle upper half top threading

1. A bottle assembly comprising: a bottle for containing beverages, saidbottle comprising: a closed bottom having: a hemispherical bottom wallwith a plurality of serrations; a retaining ring surrounding saidcentral peg; an open top having a threaded neck; a side wall extendingbetween said closed bottom and said open top, said side wall and saidclosed bottom defining an interior volume; a bladder liner disposedwithin said interior volume; a central peg attached to said bladderliner downward extending through a base of said hemispherical bottomwall; a cap having a threaded interior skirt for closing said threadedneck; a removable rotating base attached to said closed bottom andcomprising: an inner protrusion extending upwardly from said outerannular base, said inner protrusion having a top surface with an outerlip supporting said retaining ring and a central opening receiving saidcentral peg of said bottle; a circumferential side wall extending upwardfrom said outer annular base and having a plurality of ribs protrudinginwardly from an inner surface, said plurality of ribs cooperating withsaid plurality of serrations of said bottle to form a ratchetingmechanism for twisting, and preventing of movement of said bladderliner, On it own.
 2. The bottle assembly according to claim 17, whereinsaid plurality of serrations comprise a series of indents andprotrusions.
 3. The bottle assembly according to claim 17, wherein saidbladder liner is connected to said base, so that rotating said baseoperates said ratcheting mechanism, causing said central peg to turn andthereby twist said bladder liner. said plurality of serrations comprisea series of indents and protrusions.
 4. The bottle assembly according toclaim 17, wherein said bladder liner further comprises an upper openingand a rim surrounding said upper opening, said rim disposed proximal tosaid open top and said peg extends from a bottom of said bladder liner.5. The bottle assembly according to claim 17, said peg furthercomprising of sides with nodes.
 6. The bottle assembly according toclaim 17, said bladder liner further comprising a plurality of scoringfor initiating the collapse of said bladder liner at a bottom of saidbladder liner.
 7. The bottle assembly according to claim 17, said sidewall of said bottle further comprising a circumferential groove proximalto said closed bottom of said bottle;
 8. The bottle assembly accordingto claim 17, wherein said serrations of said closed bottom extend in asubstantially axial direction and said ribs of said rotating base extendin a substantially axial direction.
 9. The bottle assembly according toclaim 17, wherein said rotating based encloses the closed bottom of saidbottle entirely except for said peg.
 10. The bottle assembly accordingto claim 17, said circumferential side wall further comprising an upperflange with a circumferential lip defining an open upper end of saidrotation base.
 11. The bottle assembly according to claim 17, whereinsaid ribs extend proximal to a midpoint of said circumferential sidewall of said rotating base.
 12. The bottle assembly according to claim17, said bottle comprising a side wall with a squeeze opening disposedproximal to said threaded neck.
 13. The bottle assembly comprising: abottle for containing beverages said bottle comprising: an open bottomhaving threading around the bottom; an open top having a threaded neck;a side wall extending between said open bottom and said open top, saidside wall, said open bottom, and said open top defining an interiorvolume; a separate bottom with hemispherical bottom wall within athreaded open top. And a plurality of serations; a retaining ringsurrounding an opening at the bottom of said separate bottom; a separatedetachable bottle neck with interior and exterior threading, and a notchat the top opening; two separate threaded caps; a chip located below rimof said bladder liner. a handle, a trigger, and a lever with a pad atthe end;
 14. A bottle according to claim 29, is further enhanced with asaid separate bottom, that screws onto the bottom of the body of saidbottle.
 15. A bottle according to claim 29, is provided with threadingslightly above the wide opening at the bottom of said bottle, further itis threaded at the top opening.
 16. A bottle according to claim 29, saidseparate bottom is provided with threading just below the open top. 17.A bottle according to claim 29, a groove circumvents said separatebottom.
 18. A bottle according to claim 29, has been enhanced by addingindents on said separate bottom.
 19. A bottle according to claim 29, hasbeen further enhanced by adding a retaining ring to the bottom of thesaid separate bottom.
 20. A bottle according to claim 29, has beenfitted with a retaining ring hole on the said separate bottom.
 21. Abottle according to claim 29, The top of said bottle has also beenenhanced by creating a said separate detachable bottle neck.
 22. Abottle according to claim 29, a chip has been placed below said bladderrim, and a notch has been created at the top of the said detachablebottle neck.
 23. A bottle according to claim 29, has also been fittedwith a cap that is created in two parts. The first cap screws onto thetop of the detachable bottle neck. The second cap is smaller and screwsonto the top end of the first cap.
 24. A bottle according to claim 29,has also been fitted with a handle, a trigger, and a lever with a pad atthe end that is part way into the body of said bottle.